Arch expanding appliance

ABSTRACT

The present disclosure provides method, systems, and devices for expanding arch of teeth. A device for expanding an arch of teeth of a patient can include a removable shell formed of a first material having a number of cavities formed therein. The number of cavities are shaped to receive teeth of a patient. A device for expanding an arch of teeth of a patient can include an arch element extending from the removable shell in a lingual direction and across an arch width of the removable shell. The arch element can be formed of the first material and a second material that is a different material than the first material, can be designed to expand an arch of the teeth of the patient, and can have a width specific to a stage of a treatment plan.

BACKGROUND

The present disclosure is related generally to the field of dentaltreatment. More particularly, the present disclosure is related tomethods, systems, and devices for expanding an arch of a patient.

Dental treatments may involve, for instance, restorative and/ororthodontic procedures. Restorative procedures may be designed toimplant a dental prosthesis (e.g., a crown, bridge inlay, onlay, veneer,etc.) intraorally in a patient. Orthodontic procedures may includerepositioning misaligned teeth and/or changing bite configurations forimproved cosmetic appearance and/or dental function. Orthodonticrepositioning can be accomplished, for example, by applying controlledforces to one or more teeth over a period of time

As an example, orthodontic repositioning may be provided through adental process that uses positioning appliances for realigning teeth.Such appliances may utilize a thin shell of material having resilientproperties, referred to as an “aligner,” that generally conforms to apatient's teeth but is slightly out of alignment with a current toothconfiguration.

Placement of such an appliance over the teeth may provide controlledforces in specific locations to gradually move the teeth into a newconfiguration. Repetition of this process with successive appliances inprogressive configurations can move the teeth through a series ofintermediate arrangements to a final desired arrangement.

Such systems typically utilize materials that are lightweight and/ortransparent to provide a set of appliances that can be used seriallysuch that as the teeth move, a new appliance can be implemented tofurther move the teeth toward the desired goal.

In some instances, the width of a dental arch of a patient's upperdentition and/or and a width of a dental arch of a patient's lowerdentition can be insufficient (e.g., too narrow) and on rare occasions,the width may be excessive (e.g., Brodie bite). A dental arch that isinsufficient can result in malocclusions such as crossbite, crowding ofteeth, impacted teeth, and/or the patient's smile may not beaesthetically pleasing in appearance. For instance, a patient's smilemay be “narrow” resulting in a sunken appearance in the buccal corridorsdue to the inability to see the back teeth from the front view.

In certain types of front-to-back bite correction (e.g., Class II andClass III correction), a need for transverse width correction exists,without which the upper and lower arches will not be properlycoordinated. For Class II correction, the upper needs to be expanded sothat when the lower is advanced, the teeth in the buccal regions(typically the bicuspids and molars) are fitting together correctly inthe buccal-lingual dimension. For Class III correction, the reverse isrequired, and the lower needs to be expanded since it is usually the onethat has compensated for the Class III bite by constricting. When bothClass II and Class III are corrected to a more ideal Class I bite, therespective compensations need to be undone, and a transverse widthdimension of movement is necessary in addition to theanterior-to-posterior movement.

The width of a dental arch of a patient can be expanded, for instance,using an orthodontic appliance. The typical process for correcting anarrow appearance is palatal expansion. Currently available orthodonticappliances can include a permanent fixture that may be displeasing, bothphysically and aesthetically, to a patient. For example, currentlyavailable orthodontic appliances can include a jackscrew and/or othermechanism that is employed to deliver a horizontal stretching force tothe molar teeth to split the upper jaw of the patient along themidpalatal suture. Such a mechanism typically spreads the left and rightmaxillary plates of the palate apart and then new bone material grows inbetween to fill the gap. As such, a large horizontal force, in manycases, is delivered by a professional and can cause discomfort and/orpain for a patient.

In some instances, the screw and/or other mechanism can be employedincrementally one or more times a day (e.g. 0.25 mm expansion twice aday—one activation in the morning and once at night). For example, apinhole can be present in the orthodontic appliance and a patient caninsert an activation key into the pinhole to incrementally increase adistance between portions of the orthodontic appliance. Such orthodonticappliances can be difficult for a patient to use, and often requireassistance from another person (e.g., a parent) to turn the key. Notonly are such appliances often not aesthetically pleasing, they oftentimes interfere with the patient's speech, temporarily affect theirability to chew and/or swallow, and/or can be painful when activated.Adding to the challenges of such an appliance is the need to retain theexpansion while the bone is filling into the suture, long after theactive expansion has taken place. The active expansion process may becompleted within 2 or 3 weeks' time, but the retention period can lastaround 6 months while waiting for the gap between the maxillary halvesto fill in with new bony tissue.

BRIEF DESCRIPTION OF THE DRAWINGS

FIG. 1 illustrates an example of an appliance according to a number ofembodiments of the present disclosure.

FIG. 2 illustrates an example of a method for forming a dental applianceaccording to a number of embodiments of the present disclosure.

FIG. 3 illustrates an example of a process for forming a dentalappliance according to a number of embodiments of the presentdisclosure.

FIG. 4 illustrates an example computing device readable medium havingexecutable instructions that can be executed by a processor to perform amethod according to one or more embodiments of the present disclosure.

FIG. 5 illustrates an example of an appliance for expanding an arch of apatient having features provided on the palate surface according to anumber of embodiments of the present disclosure.

FIG. 6 illustrates another example of an appliance for expanding an archof a patient having features provided on the palate surface according toa number of embodiments of the present disclosure.

FIG. 7 illustrates another example of an appliance for expanding an archof a patient having raised features thereon according to a number ofembodiments of the present disclosure.

FIG. 8 illustrates another example of an appliance for expanding an archof a patient having zig-zag features thereon according to a number ofembodiments of the present disclosure.

DETAILED DESCRIPTION

As discussed above, the present disclosure provides methods, systems,and devices for expanding an arch of a patient. Generally, the expansionoccurs during an orthodontic treatment which is a process of moving andreorienting teeth for functional and/or aesthetic purposes, althoughrepositioning may be made for other purposes.

In some instances, an arch of a patient's teeth can be insufficient(e.g., narrow), and in rare occasions, too wide. An insufficient arch ofa patient's teeth can cause overcrowding of a patient's teeth, impactedteeth, speech difficulty, breathing issues, and/or the smile of apatient can be aesthetically unpleasing. A narrow arch also prevents theanterior-posterior bite relationship from being corrected properly. Anarch of teeth, as used herein, can include a curved row of teeth on aparticular jaw of a patient. An insufficient arch can include an archthat has a width too narrow to support the row of teeth in a correctalignment, for instance. The arch width of a patient's teeth can beexpanded, for instance, using an orthodontic appliance (e.g., a dentalappliance).

Patients that are children or teenagers may have a maxilla where themidpalatal suture has not yet fused. Usually in the mid- to late-teens,the palatal suture fuses and the halves of the maxilla join together tobecome a single maxillary bone. The maxilla (e.g., the upper jaw) is abone that is fixed to the skull. The mandible (e.g., lower jaw) is abone that is attached to the skull by numerous muscles which power itsmovement. The mandible articulates at its posterior upward extremitieswith the temporal bone to form the jaw joint. The jaw joint is a looselyconnected joint that accommodates the variety of movements of themandible relative to the maxilla during biting and chewing. In correctlyshaped and positioned jaws, the upper teeth occupy an arch that is widerthan the arch comprising the lower teeth. In other words, the upperteeth are designed to be buccally positioned relative to the teeth inthe lower jaw. Malocclusions such as crossbite occur when this normalarrangement is reversed and one or more of the upper teeth arepositioned lingual to the teeth in the lower jaw.

A patient with an un-fused maxilla can for instance have their palateskeletally expanded. This is in contrast to dental expansion where theteeth are uprighted or moved within the boundaries of the jaw in whichthey are contained. With skeletal expansion, the underlying bone ismoved and the teeth are moved along with the changes to the shape of thebone. Expanding a palate can, for instance, include splitting the leftand right sides of the maxilla so that the teeth on the upper left sidemove as a single unit relative to the teeth on the right side. Becauseof this phenomenon, a gap between the top two front teeth can open upduring the expansion process if they are not restrained from separating.

As discussed above, expansion of the palate, such as those methodsperformed prior to an orthodontic treatment involving braces and wires,includes having a treatment professional place an orthodontic appliancethat may include anchoring bands, support bars, springs, and/or jackscrews. The appliance is firmly affixed to the teeth at the anchorpoints and the springs or jackscrew applies forces on the teeth in orderto move the underlying portions of the palate of the patient, therebycausing the arch of the patient's dentition to widen. To adjust theappliance and increase the amount of expansion, the patient and/oranother person must insert a key into the pinhole and turn the key toincrease the width of the orthodontic appliances. In some examples,prior approaches can include a removable appliance which contains ajackscrew expander that is activated with a pinhole key. These movementsare primarily dental in nature, in that the teeth are usually tippedoutward (buccally) and within the existing perimeter of the bone. Afterexpanding the arch of the patient to the desired width (and sometimesovercorrecting in order to anticipate potential relapse towards thenarrowness initially present), further orthodontic treatment can beperformed to move and re-orientate the teeth of the patient. This typeof additional orthodontic treatment can be done concurrently with theabove discussed palate expansion technique, but often times, thealignment phase is performed after the expansion phase.

Further, palate expansion devices that are used primarily for skeletalexpansion are typically temporarily anchored to the molars and/orpre-molars of the patient for the duration of the expansion and cannotbe removed except by a dental professional because they are cementedinto place. The forces that are applied to the molars and/or premolarsare rather high in order to separate the suture, and therefore, thetreatment can be uncomfortable to the patient due to the high pressurethat is generated during the activation period. Once the suture splits,the majority of the pressure is relieved and subsequent activations inclose proximity to the initial activation are not as uncomfortable.

In contrast, expanding an arch of a patient (whether skeletally with afixed appliance or dentally with a removable appliance) according toembodiments of the present disclosure, can include utilizing a set ofone or more appliances, such as positioners, retainers, and/or otherremovable appliances (e.g., clear plastic polymer shells and/oraligners) having a shell to be worn over the teeth of a patient andhaving an arch element thereon that is designed to expand an arch ofteeth of the patient by moving the teeth of the patient to a widerposition within the jaw. These appliances, in some embodiments may alsoexpand the palate to a degree, but with a different degree ofreliability than the palate expanders discussed above, since theexpansion in a dental expansion device is much more gradual (on theorder of 0.5 mm per month as opposed to 0.5 mm per day), and so theamount of skeletal versus dental expansion cannot be easily determinedor distinguished.

For example, one or more appliance embodiments can include a removableshell formed of a first material having a number of cavities therein,wherein the number of cavities are shaped to receive teeth of thepatient. These appliances are not fixed to the teeth of the patient andtherefore can be removed by the patient for periods of time duringtreatment without aid from other people or intervention by a treatmentprofessional.

In various embodiments of the present disclosure, an arch element canextend from the removable shell in a lingual direction and across atleast a portion of the arch width of the removable shell. The arch widthcan be from molar to molar, from premolar to premolar, from canine tocanine, or from any tooth on the left side to any tooth on the rightside. The arch element can be formed of a first material and from asecond material that is a different than the first material in at leastone physical property. For example, the first material may be apolyurethane and the second material also be a polyurethane materialwith the same chemical formula, but of different hardness or rigiditydue to greater crosslinking. Or, the first material can be of onechemical composition (e.g. polyurethane), and the second material of anentirely different chemical composition (e.g. polyvinyl chloride).

The arch element can have a width specific to a stage of a treatmentplan and can be designed to expand an arch of the teeth of the patientto that specified width, which may be less than the full width in whichthat arch is to be expanded (i.e., the arch expansion can beincrementally accomplished by expanding the arch a little at a time overthe use of several differently designed sequential dental appliances).Or the arch may be over-expanded to compensate for incomplete biologicalresponse to the desired outcome, where the actual width of the teeth isless than the width programmed or built into the stage(s) of thetreatment plan.

In some embodiments, the second material can include, for instance, amore rigid material than the first material designed to provide greaterresistance and/or force in a horizontal direction (i.e., transversedirection) against the posterior teeth (e.g., molars and bicuspids) ofthe arch of the patient. In various embodiments, this second materialcan be designed to impart force to the molars and/or other teeth on thejaw of the patient in order to either help preserve or change thetransverse dimensions of the arch. Additionally, in some embodiments,with the use of appliances on the upper and lower jaws, the force can beimparted to parts of the opposing jaw (e.g., teeth, jaw bone, etc.).

The expansion of an arch of teeth in the patient can be used to treatmalocclusions such as crossbites, sagittal problems, crowding, and/or tohelp prevent or resolve impacted teeth, in various embodiments. Thetransverse support elements can be designed to not interfere with theshells of the dental appliance. In this manner, a dental appliance inaccordance with embodiments of the present disclosure can be used toconcurrently expand or constrict an arch of the patient whilerepositioning a number of teeth of the patient.

As discussed above, in some embodiments, a plurality of appliances canbe worn by a patient successively to achieve gradual expansion (orconstriction) of the arch of teeth in the patient. For instance, each ofa plurality of dental appliances can include an incrementally widerwidth to expand the arch of the patient in incremental distances. Insome such embodiments, since this arch expansion technique can beaccomplished concurrently with other orthodontic treatments, the archexpansion can be accomplished over a series of appliances that will beutilized over a period of less than one year to multiple years, therebymaking any pain and/or discomfort of the patient more consistent andless arbitrary without prolonging the overall time for orthodontictreatment.

In some embodiments, an appliance can be formed using a thermoformingprocess. For instance, a first portion of an arch element can be formedof a material using a virtual model of the palate of the patient and avirtual model of a number of teeth of the patient.

The first portion of the arch element can be wider than the arch widthof the number of teeth of the first jaw of the patient and can be shapedto substantially follow contours of the palate of the patient. Forexpansion, this difference in the width will facilitate the movement ofthe arch outward toward the wider position of the arch element.

A removable shell can be formed over a set of molded teeth. Theremovable shell can include a number of cavities formed therein andshaped to receive the number of teeth of patient and a second portion ofthe arch element. The second portion of the arch element can be formedof the same material as the removable shell and can include the samewidth as the first portion of the arch element.

The first portion of the arch element and the second portion of the archelement can, for example, be connected to form the dental appliance. Thefirst portion and second portion can be connected, in accordance withvarious embodiments of the present disclosure, by thermoforming theremovable shell over the set of molded teeth with the first portion ofthe arch element placed within the set of molded teeth (e.g.,encapsulated), by fusing the two materials together (e.g., ultrasonicwelding), by adhering the first portion and the second portion using anagent subsequent to forming the first portion and the removable shell,and/or by adding a number of features to the first portion of the archelement (e.g., as discussed further herein). In this manner, a dentalappliance can be formed that has two distinct material properties, butis unitary in nature (e.g., forms a single body that can be used by thepatient even though it is formed of two materials). Such embodiments,are discussed with regard to the embodiments illustrated in the figuresand discussed below.

In the detailed description of the present disclosure, reference is madeto the accompanying drawings that form a part hereof, and in which isshown by way of illustration how one or more embodiments of thedisclosure may be practiced. These embodiments are described insufficient detail to enable those of ordinary skill in the art topractice the embodiments of this disclosure, and it is to be understoodthat other embodiments may be utilized and that process, electrical,and/or structural changes may be made without departing from the scopeof the present disclosure. As used herein, “a number of” a particularthing can refer to one or more of such things (e.g., a number of teethcan refer to one or more teeth).

The figures herein follow a numbering convention in which the firstdigit or digits correspond to the drawing figure number and theremaining digits identify an element or component in the drawing.Similar elements or components between different figures may beidentified by the use of similar digits. For example, 104 may referenceelement “04” in FIG. 1, and a similar element may be referenced as 304in FIG. 3. As will be appreciated, elements shown in the variousembodiments herein can be added, exchanged, and/or eliminated so as toprovide a number of additional embodiments of the present disclosure. Inaddition, as will be appreciated, the proportion and the relative scaleof the elements provided in the figures are intended to illustratecertain embodiments of the present invention, and should not be taken ina limiting sense.

FIG. 1 illustrates an example of an appliance 100 according to a numberof embodiments of the present disclosure. The appliance 100, illustratedin the embodiment of FIG. 1, can include an upper dentition appliance(e.g., an appliance placed on the upper jaw of the patient). An upperjaw can include a maxilla and can include a number of teeth of apatient's upper dentition. The lower jaw can include a mandible and caninclude a number of teeth of the patent's lower dentition.

Appliances can include any positioners, retainers, and/or otherremovable dental appliances for finishing and maintaining teethpositioning in connection with a dental treatment. These appliances maybe utilized by the treatment professional in performing a treatmentplan. For example, a treatment plan can include the use of a set ofappliances, created according to models described herein. Appliances, insome embodiments, can include flexible dental appliances which serve, inpart, as a prosthesis for esthetics and/or dental function.

An appliance can, for example, be fabricated from a polymeric shell,and/or formed from other material, having a cavity shaped to receive andapply force to reposition one or more teeth from one teeth arrangementto a successive teeth arrangement. The shell may be designed to fit overa number of, or in many instances all, teeth present in the upper and/orlower jaw. The shell can include an interior surface (e.g., adjacent toa surface of the teeth place therein) and an exterior surface. Theinterior surface is configured to receive and a apply forces to theteeth therein to reposition a number of teeth of the patient, forexample.

In accordance with some embodiments of the present disclosure, theappliance 100 can include a removable shell 102 formed of a firstmaterial having a number of cavities formed therein. As discussed above,the number of cavities can be shaped to receive teeth of the patient.

The appliance 100 can include an arch element extending from theremovable shell 102 in a lingual direction and across an arch width ofthe removable shell 102. The arch width of the removable shell 102, asused herein, is a space between the cavities of the removable shell 102.For instance, the arch element can expand across a surface of the mouthof the patient when the dental appliance 100 is placed over the teeth ofthe patient. The surface of the mouth can include, for instance, apalate and/or floor of the mouth.

The arch element, as illustrated by FIG. 1, can be formed of the firstmaterial 106 and a second material 104 that is different than the firstmaterial 106. The first material 106 can include the material that theremovable shell 102 is formed of.

As discussed above, the arch element can be designed to expand an archof teeth of the patient. For instance, the width of the arch element canbe wider than the actual arch width of the teeth of the patient in orderto define the desired arch width incremental target for the teeth. Anarch width of the teeth of the patient can include a distance betweenteeth of the left posterior side of the patient's dentition and teeth ofthe right posterior side of the patient's dentition. As an example, thearch element can be 0.25 millimeters wider than the arch width of theteeth of the patient.

The second material 104 can be more rigid than the first material 106.For instance, the rigidity of the second material 104 can apply a forceto at least a portion of the number of teeth in a transverse direction(e.g., horizontal direction) to expand the arch of teeth of the patient.

In some embodiments, the first material 106 of the arch element can forma first layer and the second material 104 of the arch element can form asecond layer. The first layer of the first material 106 can be formedintegrally with and of a same material as the removable shell 102, forinstance. The second layer of the second material 104 can be formed in aseparate process and attached to the first layer of the first material106, for example (e.g., as discussed further herein).

In some embodiments, the arch element can follow contours of a surfaceof the mouth of the patient when the appliance 100 is placed over theteeth of the patient. For example, the second material 104 (e.g., thesecond layer of the second material 104) and/or the first material 106(e.g., the first layer of the first material 106) can be shaped tosubstantially follow the contours of the palate of the patient. This canbe accomplished, for example, by taking a mold or scan of the surface ofthe palate of the patient and then forming the surface of arch elementto substantially match the mold/scan surface (i.e., the surface may notbe identical, as the arch element may be designed to be wider asdiscussed above and therefore is not an identical copy of the mold/scansurface, and therefore may substantially match, but not be identical).The contours of the palate in the appliance may be interpolated inanticipation of a stretching of the tissues during the expansion, inorder to better accommodate the seating of the appliance in thepatient's mouth. In other words, the shape of the appliance is designedto include an expected stretching of the patient's palatal or lowerlingual tissues during dental expansion, and not just a movement of theteeth.

In some embodiments, the first material 106, can be adjacent to and/orin contact with a tongue of the patient. The second material 104 can,for example, be adjacent to and/or in contact with a surface of thepatient's mouth (e.g., the palate and/or floor of the patient's mouth).In this manner, the first material and second material form a layeredconstruction.

The appliance 100 can be used for repositioning the number of teeth ofthe patient concurrently with expansion of the arch of teeth of thepatient utilizing the arch element. The expansion of the arch of teethcan include movement of posterior teeth (e.g., molars) and/or otherteeth of the arch of the patient in a transverse direction and/orstretching of the maxillary suture of the patient (e.g., separates themaxillary halves in the region of the suture), along with a stretchingof the surrounding soft tissues (e.g., the palatal gingiva) during theexpansion.

The simultaneous treatment of misalignment of a patient's dental arch(e.g., insufficient dental arch width) in conjunction with teethalignment issues (e.g., rotation, tipping, etc.) can shorten treatmentstimes when compared to current linear two-phase treatment protocols thatfirst treat the misalignment of a patient's dental arch followed bytreatment of misalignment of the patient's teeth. That is, the archelement can, in accordance with a number of embodiments, avoid and/ornot interfere with engagement of the removable shell 102 with the teeththerein and thereby allow for correction of various tooth misalignmentissues during the arch expansion process so that both arch expansion andalignment correction occurs in tandem rather than as separate phases.

Although the present embodiment of FIG. 1 illustrates an appliance foran upper dentition of a patient, embodiments are not so limited.Appliances, in accordance with some embodiments, can include anappliance for a lower dentition of a patient and/or an appliance for anupper dentition and a lower dentition. In some such embodiments, thearch element extending from a surface of an appliance for a lowerdentition can substantially follow the contours of a portion of thefloor of the patient's mouth. While the lower arch (i.e., mandible) doesnot contain a suture that can be split as the upper arch does, the sameprinciples of appliance design described herein may be applied even inthe lower in order impart greater transverse stability and/or forcethrough the lower arch appliance to more effectively deliver transverseforces to the lower dentition for dental expansion purposes. In somesuch embodiments, since a generally horizontal span across the bottom ofthe patient's mouth may not be suitable for positioning of an archelement (e.g., because the tongue is in the way), an appliance of thepresent disclosure may include reinforced portions of the dentalappliance that impart forces to help dentally expand the lower arch ofthe patient. For example, a portion of the arch element may bepositioned in front of the tongue of the patient or in close proximityto the tongue in order to impart a horizontal force and the shell may bedesigned to transfer or redirect the resulting anterior force generatedby the tongue towards the back portion of the jaw of the patient (e.g.,closer to the molars).

In some embodiments, a first appliance can be placed over the upperdentition and a second appliance can be placed over the lower dentitionof the patient. The first appliance and the second appliance can eachhave an arch element. The arch element of the first appliance and thearch element of the second appliance can expand the dental arch of theupper dentition and the dental arch of the lower dentition,respectively, to the same degree. Or in the case of Class II or ClassIII correction where a disproportionate amount of expansion/constrictionis needed, the amounts can be coordinated so that the expansion targetedis suitable for the desired amount of anterior-posterior bite change.

In some embodiments of the present disclosure, the appliance 100 can bea portion of a treatment plan. For instance, the treatment plan caninclude a series of appliances designed to incrementally implement atreatment plan. Each of the series of appliances can be a stage of theincremental treatment plan, for instance. The series can be used fortreating misalignment of teeth of a patient and/or misalignment of oneor more arches of teeth of the patient. In some such embodiments, onearch can be expanded while the other arch is not expanded or both archescan be expanded simultaneously. Or one arch can be expanded while theother one is constricted.

For instance, a first appliance, of a series of appliances designed toincrementally implement a treatment plan can comprise a first shellformed of a first material having a plurality of cavities thereindesigned to receive teeth of a first jaw. The first appliance caninclude a first arch element formed of a first layer of the firstmaterial and a second layer of the second material different than thefirst material. The first arch element can extend from the first shellin a lingual direction and across an arch width of the first shell. Forinstance, the first arch element can have a first width specific to afirst stage of the treatment plan and/or can be designed to expand anarch of the teeth of the patient.

A second appliance, of the series of appliances, can comprise a secondshell having a plurality of cavities therein designed to receive teethof the first jaw. The second appliance can include a second archelement. For example, the second arch element can have a second widthspecific to a second stage of the treatment plan. The second width canbe wider than the first width. For instance, the second width caninclude an incremental increase in width as compared to the first width.The successive incremental increase in the arch width of the appliancescorresponds to the desired gradual increase in the actual physical archof the patient.

In accordance with some embodiments of the present disclosure, theseries of appliances can include a third appliance. The third appliancecan include a third shell having a plurality of cavities thereindesigned to receive teeth of the second jaw (e.g., the lower jaw). Forinstance, the third appliance can include a third arch element designedto expand the arch of teeth of the patient. The third arch element canhave a third width specific to the first stage of the treatment plan.

In such an embodiment, the first appliance and third appliance can befor a first stage of the treatment plan. For instance, a patient canplace the first appliance over the teeth of the first jaw (e.g., upperjaw) and can place the third appliance over the teeth of the second jaw(e.g., lower jaw). The first arch element of the first appliance and thethird arch element of the third appliance can be designed to expand thearch of teeth of the first jaw and the arch of teeth of the second jawto a same degree (e.g., equal distance) based on the first width and thesecond width. Equal distance in expansion amount is desirable if theupper and lower arches are already in good coordination and nofront-to-back change in the bite is desired or planned.

In various embodiments, the series of appliances can include a fourthappliance. The fourth appliance can include a fourth shell having aplurality of cavities therein designed to receive teeth of the firstjaw. The fourth appliance may not include an arch element and/or caninclude a fourth arch element, for example.

Although the present embodiments illustrate two stages of a treatmentplan, embodiments in accordance with the present disclosure are not solimited. Treatment plans can include a variety of number of stages,including more or less than two treatment stages. At least a portion ofthe stages can include treatment for gradual expansion of an arch ofteeth of a patient. Alternatively and/or in addition, one or more of thestages may not include arch elements, in various embodiments.

FIG. 2 illustrates an example of a method 210 for forming a dentalappliance according to a number of embodiments of the presentdisclosure. The method 210 can be utilized to form an appliance 100, asillustrated in the embodiment of FIG. 1.

At block 212, the method 210 can include forming a first portion of anarch element of a material using a virtual model of a palate of apatient and a virtual model of a number of teeth of the patient. Thefirst portion of the arch element can be wider than an arch width of thenumber of teeth of the first jaw of the patient, specific to a stage ofa treatment plan, and is shaped to substantially follow contours of thepalate of the patient (that may also include modeling of anticipatedchanges to the palatal contours due to tissue stretching), for instance.

The palatal contours in the model can also be specifically raised in avertical direction so that any appliance which is formed over the modelis slightly raised in comparison to the actual contours of the palate.In other words, a slight gap between the actual palate and the palatalcoverage portion of the appliance can be designed to be present. Thisgap allows the transverse benefits of the appliance design to be ineffect while not necessarily requiring an exact fit of the appliance tothe contours of the tissue. A slight offset in the vertical dimensionminimizes any disruption in speech, swallowing, or feel due to changesin tongue position that may result in the alteration. More importantly,intentionally raising the vertical dimension of only the palatal tissueregions has the benefit of not needing perfect modeling of anynon-linear stretching that might take place in the tissue; this greatlyreduces the risk of uncomfortable pressure spots and sores caused by theappliance. Having to relieve pressure spots in the appliance can be verytime consuming for the doctor, and if the appliance is thin to beginwith, such adjustments can lead to weakened areas in the appliance.

A virtual model of a number of teeth of the patient can, for example,include an initial virtual dental model and/or an intermediate virtualdental model. A virtual model of the palate (and/or other tissuesurfaces of the patient's mouth) can include the contours of the palate.In some embodiments, the virtual model of the palate and the virtualmodel of the number of teeth can include a single virtual model and/ortwo separate virtual models.

The first portion of the arch element can be formed by a rapidprototyping process, such as, for example, by a Computer-aidedmanufacturing (CAM) milling, stereolithography (i.e., 3-D printing),and/or photolithography. The first portion of the arch element can beshaped to fit between the arch of the first jaw of the patient whilebeing sized to be wider than the arch width of the number of teeth ofthe first jaw of the patient. The flexibility of the appliance is suchthat it can be compressed in the transverse direction during seating inorder to activate the expansion force. This force then gets released anddirected towards the teeth, soft tissues, and/or jaw bone when then theappliance is seated in the mouth. In some embodiments, the first portioncan be shaped to substantially follow contours of the palate of thepatient using the virtual model of the palate. Alternatively and/or inaddition, the first portion can be shaped to substantially followcontours of the floor of the mouth of the patient using a virtual modelof the floor of the mouth.

At block 214, the method 210 can include forming a removable shell overa set of molded teeth. The removable shell can include a number ofcavities formed therein, wherein the number of cavities are shaped toreceive the number of teeth of the patient. In various embodiments, theremovable shell can include a second portion of the arch element formedof the same material as the number of cavities. The second portion ofthe arch element can be formed integrally with and/or during a sameprocess as the number of cavities, for instance.

The material forming the first portion of the arch element can be morerigid than the material forming the second portion of the arch element,for instance. In some embodiments, the second portion of the archelement can include the same width as the first portion of the archelement.

Alternatively and/or in addition, the first portion of the arch elementcan be designed to be adjacent to and/or in contact with a surface ofthe patient's mouth (e.g., the palate and/or floor of the patient'smouth) when the dental appliance is placed over the teeth of thepatient. The second portion of the arch element can be designed to beadjacent to and/or in contact with a tongue of the patient when thedental appliance is placed over the teeth of the patient.

The dental appliance can be made, for example, by thermoforming a pieceof plastic over a physical dental model. The physical dental model, forinstance, can represent an incremental position to which a patient'steeth are to be moved. This desired position of the patient's teethincludes any underlying desired changes to the skeletal structure whichholds the teeth in place. The physical dental models can be manufacturedby downloading a Computer-aided Design (CAD) virtual dental model fileinto a rapid prototyping process, such as, for example, a Computer-aidedmanufacturing (CAM) milling, stereolithography (e.g., 3-D printing),and/or photolithography. The virtual dental model can be hollowed out or“shelled” before it is sent for manufacturing to save on material costif printed, for example.

The dental model (e.g., set of molded teeth) can be created from avirtual model of a number of teeth of a patient. A dental model can beformed in accordance with a unique treatment file that identifies apatient, a stage of a treatment plan, the virtual model of the number ofteeth, and/or whether the dental model is of the upper and/or lowerdental arch.

In some embodiments, a treatment file can be accessed by a rapidprototyping apparatus machine, such as a SLA or printing, to form and/orcreate the dental model. The result of the dental model can include aset of molded teeth (e.g., a physical set of molded teeth). The set ofmolded teeth can include at least a replica of the number of teeth ofthe patient. The dental model can be used to make a dental appliance,for example, by creating a negative impression of the dental model usingpolymeric sheets of material and vacuum forming heated sheets of thepolymer over the dental model, as discussed above.

For instance, a dental appliance can be created by layering athermoformable sheet of material and/or multiple sheets of one or morematerials over the dental model. The materials can include at least onepolymeric material, for instance. Generally, the dental appliance isproduced and/or formed by heating the polymeric thermoformable sheet andvacuum or pressure forming the sheet over the dental model (i.e., over anumber of the teeth in the mold). The shape of the sheet of material canbe designed to intentionally vary in thickness in some portions of thesheet (beyond natural variations in thickness during the shapingprocess) as it conforms to the mold shape. A dental appliance can, forexample, include a negative impression of the dental model. Theappliance and/or parts thereof may be transparent, semi-transparent, oropaque in such a way as to emulate a natural tooth shade.

At block 216, the method 210 can include connecting the first portion ofthe arch element to the second portion of the arch element to form thedental appliance. The arch element can, for example, be designed toprovide a force to at least a portion of the number of teeth in atransverse direction to expand the arch of the teeth of the first jaw ofthe patient.

The first portion of the arch element and the second portion of the archelement can be connected in a variety of ways, in accordance with someembodiments of the present disclosure. For instance, the first portionof the arch element can be connected to the second portion of the archelement by thermoforming the removable shell over the set of moldedteeth with the first portion of the arch element placed within the setof molded teeth (i.e., encapsulated by). An agent (e.g., a bindingmaterial) can be added to connect the first portion of the arch elementto the second portion of the arch element created by thermoforming theremovable shell. The first and second portions may also be secured toeach other through ultrasonic welding or other techniques that allowadhesion without the need for an intermediary substrate such as asolvent or adhesive.

In accordance with some embodiments of the present disclosure, the firstportion of the arch element can be connected to the second portion ofthe arch element by adhering the first portion and the second portionsubsequent to forming the first portion of the arch element and theremovable shell. In some embodiments, an agent can be utilized to causethe first portion of the arch element to adhere to the second portion ofthe arch element, however, in some embodiments, multiple materials usedto form the first portion and second portion may be bonded without theuse of an agent (e.g. ultrasonic welding, laser spot welding). The firstportion can also be cured into place in direct contact with the dentalmodel (e.g. a liquid resin such as polyacrylic painted onto the modeland subsequently hardened through chemical or light cure) and thenjoined to the second material which is thermoformed over the firstmaterial to create an adherent bond between the two materials.

In various embodiments, the first portion can include a number offeatures (e.g., as discussed further herein). Connecting the firstportion to the second portion of the arch element can includethermoforming the removable shell over the set of molded teeth with thefirst portion of the arch element placed within the set of molded teeth.The thermoformed material (i.e., the material the removable shell isformed of) can surround the number of features of the first portion ofthe arch element to connect the first portion to the second portion ofthe arch element.

FIG. 3 illustrates an example of a process for forming a dentalappliance according to a number of embodiments of the presentdisclosure. The embodiment of FIG. 3 can include a virtual dentalappliance and/or a physical dental appliance, in various embodiments.

As illustrated by the embodiment of FIG. 3, the dental appliance caninclude a removable shell 302, a first portion of an arch element 304,and a second portion of the arch element 306. The removable shell 302can include a number of cavities formed therein, wherein the number ofcavities are shaped to receive the number of teeth of the patient. Theremovable shell 302, as illustrated in FIG. 3, can include a virtualremovable shell, a physical removable shell, and/or material to bethermoformed over a dental model (e.g., as discussed further herein).

The first portion of the arch element 304 can include a virtual firstportion and/or a physical first portion, in various embodiments. Thefirst portion of the arch element 304 can be formed of a material usinga virtual model of the surface of the mouth of the patient and a virtualmodel of the number of teeth of the patient (e.g., the virtual and/orphysical model of the lower jaw 318). The first portion of the archelement 304 can be wider than an arch width of the number of teeth ofthe first jaw of the patient, specific to a stage of the treatment plan,and/or shaped to substantially follow contours of a surface of thepatient (e.g., floor of the mouth).

The model of the lower jaw 318, as illustrated in FIG. 3, can include avirtual model of a surface of the mouth of the patient including avirtual model of the number of teeth of patient. The virtual model(e.g., the model of the lower jaw 318) can be used to print and/or millthe first portion of the arch element.

Alternatively and/or in addition, the model of the lower jaw 318 caninclude a physical set of molded teeth. A physical set of molded teethcan be created, for instance, utilizing a virtual model of the surfaceof the mouth and/or the teeth of the patient.

The removable shell 302 can be formed over a physical set of moldedteeth, in various embodiments. The removable shell 302 can include thenumber of cavities and a second portion of the arch element 306. Thesecond portion of the arch element 306 can be formed concurrently withand/or of the same material as the cavities, for instance, using themodel of the lower jaw 318. The material forming the first portion ofthe arch element 304 can be more rigid than the material forming thesecond portion of the arch element 306.

The first portion of the arch element 304 can be connected to the secondportion of the arch element 306 to form a dental appliance. For example,the first portion of the arch element 304 can be placed within thephysical set of molded teeth (e.g., the model of the lower jaw 318). Anagent can be added to the second portion of the arch element. The firstportion of the arch element 304 and the second portion of the archelement 306 can be connected as the removable shell 302 is thermoformedover the set of molded teeth. That is, the first portion of the blockelement 304 can be encapsulated in the set of molded teeth and can beadhered to the second portion of the arch element 306 utilizing anagent.

Alternatively, the first portion of the arch element 304 can beconnected to the second portion of the arch element 306 subsequent toforming the first portion of the arch element 304 and the removableshell 302. For instance, the removable shell 302 can be thermoformedover the physical set of molded teeth. Subsequently, the first portionof the arch element 304 can be adhered to the second portion of the archelement 306. The portions of the arch element 304, 306 can be adheredusing an agent or through means not requiring an agent (such asultrasonic welding), for instance.

FIG. 4 illustrates an example computing device readable medium havingexecutable instructions that can be executed by a processor to perform amethod according to one or more embodiments of the present disclosure.For instance, a computing device 424 can have a number of componentscoupled thereto. The computing device 424 can include a processor 426and a memory 428. The memory 428 can have various types of informationincluding data 430 and executable instructions 432, as discussed herein.

The processor 426 can execute instructions 432 that are stored on aninternal or external non-transitory computer device readable medium(CRM). A non-transitory CRM, as used herein, can include volatile and/ornon-volatile memory. Volatile memory can include memory that dependsupon power to store information, such as various types of dynamic randomaccess memory (DRAM), among others. Non-volatile memory can includememory that does not depend upon power to store information.

Memory 428 and/or the processor 426 may be located on the computingdevice 424 or off the computing device 424, in some embodiments. Assuch, as illustrated in the embodiment of FIG. 4, the computing device424 can include a network interface 434. Such an interface 434 can allowfor processing on another networked computing device, can be used toobtain information about the patient, and/or can be used to obtain dataand/or executable instructions for use with various embodiments providedherein.

As illustrated in the embodiment of FIG. 4, the computing device 424 caninclude one or more input and/or output interfaces 438. Such interfaces438 can be used to connect the computing device 424 with one or moreinput and/or output devices 440, 442, 444, 446, 448.

For example, in the embodiment illustrated in FIG. 4, the input and/oroutput devices can include a scanning device 440, a camera dock 442, aninput device 444 (e.g., a mouse, a keyboard, etc.), a display device 446(e.g., a monitor), a printer 448, and/or one or more other inputdevices. The input/output interfaces 438 can receive executableinstructions and/or data, storable in the data storage device (e.g.,memory), representing a virtual dental model of a patient's dentition.

In some embodiments, the scanning device 440 can be configured to scanone or more physical dental models of a patient's dentition. In one ormore embodiments, the scanning device 440 can be configured to scan thepatient's dentition and/or dental appliance directly. The scanningdevice 440 can be configured to input data into the computing device424.

In some embodiments, the camera dock 442 can receive an input from animaging device (e.g., a 2D or 3D imaging device) such as a virtualcamera, a printed photograph scanner, and/or other suitable imagingdevice. The input from the imaging device can, for example, be stored inmemory 428.

The processor 426 can execute instructions to provide a visualindication of a treatment plan, a dental appliance, and/or a portion ofan arch element on the display 446. The computing device 424 can beconfigured to allow a treatment professional or other user to inputtreatment goals. Input received can be sent to the processor 426 as data430 and/or can be stored in memory 428.

Such connectivity can allow for the input and/or output of data and/orinstructions among other types of information. Some embodiments may bedistributed among various computing devices within one or more networks,and such systems as illustrated in FIG. 4 can be beneficial in allowingfor the capture, calculation, and/or analysis of information discussedherein.

The processor 426, in association with the data storage device (e.g.,memory 428), can be associated with the data 430. The processor 426, inassociation with the memory 428, can store and/or utilize data 430and/or execute instructions 432 for designing a virtual appliance for aspecific stage of a treatment plan and/or a series of virtual appliancesfor a treatment plan. Such data can include the virtual dental modeland/or virtual model of a surface of a patient's mouth (e.g., palateand/or floor of the mouth).

The processor 426 coupled to the memory 428 can cause the computingdevice 424 to perform a method including, for example, providing avirtual model of a dental appliance having a shell configured toreposition a number of teeth of a patient. The virtual model of thedental appliance can include a second portion of an arch element. Invarious embodiments of the present disclosure, the processor 426 coupledto the memory 428 can cause the computing device 424 to perform themethod including providing a virtual model of a first portion of an archelement. The virtual model of the dental appliance can, in someembodiments, be used to create a physical dental appliance.

The first portion and the second portion of the arch element can bewider than the arch width of the number of teeth of the first jaw of thepatient. For instance, the arch element can be shaped to substantiallyfollow contours of the palate of the patient and/or the floor of themouth of the patient, in some embodiments. The palatal contour in themodel can be raised in order to result in a uniform relief gap betweenthe appliance and the actual contour of the palate. The physical firstportion can be formed of a material that is more rigid than the materialforming the second portion.

In some embodiments, in order to direct force from the arch element toother portions of the shell, a more rigid material may be appliedbetween the arch element and other portions of the shell (e.g., a rigidmaterial is applied over and/or under the shell material or encapsulatedwithin layers of shell material). Additionally, the rigid material usedto form the arch element and/or force directing portions can bereinforced by a reinforcement material (e.g., a metallic sheet or wirematerial provided to the second material).

FIG. 5 illustrates an example of an appliance 550 for expanding an archof a patient according to a number of embodiments of the presentdisclosure. The appliance 550, as illustrated in FIG. 5, can include anappliance to be placed over an upper dentition of a patient.

The appliance 550 can include removable shell 502 formed of a firstmaterial having a number of cavities formed therein. The number ofcavities can be shaped to receive teeth of the patient. An arch elementcan extend from the removable shell 502 in a lingual direction andacross an arch width of the removable shell 502.

The arch element can be formed of the first material 506 and a secondmaterial 504 that is a different in at least one material property thanthe first material. For instance, as illustrated by FIG. 5, the archelement can be formed for a first layer of the first material 506 and asecond layer of the second material 504. The second material 504 caninclude a material with at least one differing material property thanthe first material 506, for example.

The arch element can be designed to expand an arch of the teeth of thepatient. For instance, the arch element (e.g., the first material 506and the second material 504) can have a width that is wider than an archwidth of the teeth of patient. The width can be specific to a stage of atreatment plan, for example. The arch element with a width wider than anarch width of the patient can apply a force to at least a portion of thenumber of teeth in a transverse direction to expand the arch of teeth ofthe patient. For example, the arch element can apply a force to theposterior teeth of the patient.

As illustrated by the embodiment of FIG. 5, in some embodiments, anappliance 550 can include a number of features 552, 554, 556. The numberof features 552, 554, 556 can include a hollowed out portion of thefirst material 504 (e.g., an opening and/or hole in the first material504).

In such an embodiment, interlocking the first portion of an arch elementformed of a first material 504 to the second portion of the arch elementformed of a second material 506 to form the dental appliance 550 caninclude thermoforming the removable shell 502 over the set of moldedteeth (e.g., a physical set of molded teeth) with the first portion ofthe arch element (e.g., the first material 506) placed within the set ofmolded teeth. The thermoformed material (e.g., the second material 504)can surround the number of features 552, 554, 556 to physically connectthe first portion of the arch element to the first portion of the archelement. These features confer the benefit of connecting the twocomponents of the appliance together; they also have the benefit ofaltering the physical properties of the appliance due to changes inrigidity due to corrugation.

FIG. 6 illustrates another example of an appliance for expanding an archof a patient having features provided on the palatal surface accordingto a number of embodiments of the present disclosure. As with theappliance of FIG. 5, the appliance 650, as illustrated in FIG. 6, caninclude an appliance to be placed over an upper dentition of a patient.

The appliance 650 includes a removable shell 602 formed of a firstmaterial having a number of cavities formed therein. The arch elementextends from the removable shell 602 in a lingual direction and acrossan arch width of the removable shell 602. The arch element is formed ofthe first material 606 and a second material 604 that is a different inat least one material property than the first material.

As illustrated by the embodiment of FIG. 6, in some embodiments, anappliance 650 can include a number of features 658. The number offeatures 658 can include a button style feature with a top portion and atrunk portion that is smaller than the top portion in at least onedimension.

In such an embodiment, interlocking the first portion of an arch elementformed of a first material 604 to the second portion of the arch elementformed of a second material 606 to form the dental appliance 650 caninclude thermoforming the removable shell 602 over the set of moldedteeth (e.g., a physical set of molded teeth) with the first portion ofthe arch element (e.g., the first material 606) placed within the set ofmolded teeth. The thermoformed material (e.g., the second material 604)can surround the number of features 658 to physically connect the firstportion of the arch element to the first portion of the arch element. Aswith the features of FIG. 5, these features confer the benefit ofconnecting the two components of the appliance together; they also havethe benefit of altering the physical properties of the appliance due tochanges in rigidity due to corrugation.

FIG. 7 illustrates another example of an appliance for expanding an archof a patient having raised features thereon according to a number ofembodiments of the present disclosure. In this embodiment an appliance700 includes a shell portion 702 with a tab element 760 that spansacross the palate between the two sides of the shell 702.

The tab element 760 can be designed to expand an arch of the teeth ofthe patient. For instance, as with the arch element of FIG. 5, the tabelement can have a width that is wider than an arch width of the teethof patient. The width can be specific to a stage of a treatment plan,for example. The tab element with a width wider than an arch width ofthe patient can apply a force to at least a portion of the number ofteeth in a transverse direction to expand the arch of teeth of thepatient. For example, the tab element can apply a force to the posteriorteeth of the patient.

In addition, the embodiment of FIG. 7 includes raised portions that areused to reinforce portions of the appliance. For example, raisedelements 762-1 and 762-2 have been positioned to provide added force tothe shell 702 and the tab element 760. These elements can have anysuitable cross-sectional shape (for example, a half circular crosssection) and can be of the same material or a different material thanthe shell and/or the tab element.

FIG. 8 illustrates another example of an appliance for expanding an archof a patient having zig-zag features thereon according to a number ofembodiments of the present disclosure. The embodiment of FIG. 8 includesillustrates an appliance 800 with a shell 802 and a tab element 860. Inthis embodiment, the raised elements 864-1 and 864-2 are shaped in awave (rounded transitions) or zig-zag, (angled transitions, as shown inFIG. 8). Such features can provide force or reinforcement in transversedirections to a direction of elongation of the shell and/or the tabelement. Such features, as are shown in FIGS. 7 and 8 can be providedalong the entire length of the shell and/or tab element or along aportion thereof. As illustrated in the embodiments of FIGS. 7 and 8,some embodiments can have a palatal component (e.g., tab element) thatis offset from the palatal surface of the patient (having a spacebetween the tab element surface and the palatal surface). Suchembodiments, minimize the need for the doctor to make adjustments to theappliance.

Although specific embodiments have been illustrated and describedherein, those of ordinary skill in the art will appreciate that anyarrangement calculated to achieve the same techniques can be substitutedfor the specific embodiments shown. This disclosure is intended to coverany and all adaptations or variations of various embodiments of thedisclosure.

It is to be understood that the above description has been made in anillustrative fashion, and not a restrictive one. Combination of theabove embodiments, and other embodiments not specifically describedherein will be apparent to those of skill in the art upon reviewing theabove description. The scope of the various embodiments of thedisclosure includes any other applications in which the above structuresand methods are used. Therefore, the scope of various embodiments of thedisclosure should be determined with reference to the appended claims,along with the full range of equivalents to which such claims areentitled.

In the foregoing Detailed Description, various features are groupedtogether in example embodiments illustrated in the figures for thepurpose of streamlining the disclosure. This method of disclosure is notto be interpreted as reflecting an intention that the embodiments of thedisclosure require more features than are expressly recited in eachclaim.

Rather, as the following claims reflect, inventive subject matter liesin less than all features of a single disclosed embodiment. Thus, thefollowing claims are hereby incorporated into the Detailed Description,with each claim standing on its own as a separate embodiment.

What is claimed is:
 1. An appliance comprising: a removable shell formedof a first material having a number of cavities formed therein, whereinthe number of cavities are shaped to receive teeth of a patient; and anarch element extending from the removable shell in a lingual directionand across at least a portion of the arch width of the removable shell,wherein the arch element is formed of the first material and a secondmaterial that is different in at least one material property than thefirst material, and designed to expand an arch of the teeth of thepatient, wherein the arch element has a width specific to a stage of atreatment plan.
 2. The appliance of claim 1, wherein the width of thearch element is wider than an arch width of the teeth of the patient. 3.The appliance of claim 2, wherein the width is 0.25 millimeters widerthan the arch width of the teeth of the patient.
 4. The appliance ofclaim 1, wherein the second material is more rigid than the firstmaterial.
 5. The appliance of claim 1, wherein the second materialsubstantially follows contours of a surface of the mouth of the patientwhen the appliance is placed over the teeth of the patient.
 6. Theappliance of claim 1, wherein the appliance is designed to repositionthe number of the teeth of the patient and wherein the arch element isdesigned to expand the arch of teeth of the patient.
 7. The appliance ofclaim 1, wherein the arch element applies a force to at least a portionof the number of teeth in a transverse direction to expand the arch ofteeth of the patient.
 8. The appliance of claim 1, wherein the archelement has a surface that is offset from a palatal surface of thepatient.
 9. A system, comprising: a first appliance, of a series ofappliances designed to incrementally implement a treatment plan,comprising a first shell formed of a first material having a pluralityof cavities therein designed to receive teeth of a first jaw, whereinthe first appliance includes a first arch element formed of a firstlayer of the first material and a second layer of a second materialdifferent than the first material, extending therefrom in a lingualdirection and across an arch width of the first shell, and designed toexpand an arch of the teeth of a patient, and wherein the first archelement has a first width specific to a first stage of the treatmentplan; and a second appliance, of the series of appliances, comprising asecond shell having a plurality of cavities therein designed to receiveteeth of the first jaw, wherein the second appliance includes a secondarch element, wherein second arch element has a second width specific toa second stage of the treatment plan.
 10. The system of claim 9, whereinthe series of appliances includes a third appliance including a thirdshell having a plurality of cavities therein designed to receive teethof the second jaw, wherein the third appliance includes a third archelement designed to expand the arch of teeth of the patient, and whereinthe third arch element has a third width specific to the first stage ofthe treatment plan.
 11. The system of claim 10, wherein the first archelement and the third arch element are designed to expand the arch ofthe teeth of the first jaw and the arch of the teeth of the second jawto a same degree based on the first width and the second width.
 12. Thesystem of claim 9, wherein the series of appliances includes a thirdappliance including a third shell having a plurality of cavities thereindesigned to receive teeth of the first jaw and to reposition a number ofthe teeth of the first jaw, wherein the third appliance does not includean arch element.
 13. The system of claim 9, wherein the first applianceis designed to reposition a number of the teeth of the first jawconcurrently as the first arch element expands the arch of teeth of thefirst jaw.
 14. The system of claim 9, wherein a surface of the firstarch element and a surface of the second arch element are shaped tosubstantially follow contours of a palate of the patient.
 15. The systemof claim 9, wherein the second width is wider than the first width. 16.A method of forming a dental appliance, comprising: forming a firstportion of an arch element of a material using a virtual model of apalate of a patient and a virtual model of a number of teeth of thepatient, wherein the first portion of the arch element is wider than anarch width of the number of teeth of a first jaw of the patient,specific to a stage of a treatment plan, and is shaped to substantiallyfollow contours of the palate of the patient; forming a removable shellover a set of molded teeth, wherein the removable shell includes: anumber of cavities formed therein, wherein the number of cavities areshaped to receive the number of teeth of the patient; and a secondportion of the arch element formed of the same material as the number ofcavities, wherein the material forming the first portion of the archelement is more rigid than the material forming the second portion ofthe arch element and wherein the second portion is the same width as thefirst portion of the arch element; and connecting the first portion ofthe arch element to the second portion of the arch element to form thedental appliance, wherein the arch element is designed to provide aforce to at least a portion of the number of teeth in a transversedirection to expand the arch of teeth of the first jaw of the patient.17. The method of claim 16, wherein connecting the first portion of thearch element to the second portion of the arch element includesthermoforming the removable shell over the set of molded teeth with thefirst portion of the arch element placed within the set of molded teeth.18. The method of claim 17, including adding an agent to connect thefirst portion of the arch element to the second portion created bythermoforming the removable shell.
 19. The method of claim 16, whereinconnecting the first portion of the arch element to the second portionof the arch element includes adhering the first portion and the secondportion subsequent to forming the first portion of the arch element andthe removable shell.
 20. The method of claim 16, wherein forming thefirst portion of the arch element includes creating a number offeatures.
 21. The method of claim 20, wherein forming the first portionof the arch element includes creating at least one raised element. 22.The method of claim 21, wherein creating at least one raised elementincludes creating an elongated element that is straight in the directionof elongation.
 23. The method of claim 21, wherein creating at least oneraised element includes creating an elongated element that contains atleast one portion that is transverse to the direction of elongation. 24.The method of claim 20, wherein connecting the first portion of the archelement to the second portion of the arch element includes thermoformingthe removable shell over the set of molded teeth with the first portionof the arch element placed within the set of molded teeth, wherein athermoformed material surrounds the number of features.